Professorship for Sustainable Chemistry and Material Resources
Organisational unit: Section
Organisation profile
RESEARCH AND TEACHING
Chair for Sustainable Chemistry and Material Resources
We research and train in the field of sustainable chemistry and pharmacy.
We focus on environmental questions as well as on sustainable questions going beyond that such as social and ecological aspects in the context of the life cycle of chemical substances and products. This includes the extraction of raw material, its use as well as the fate after its use. We are also interested in the material flow associated with the extraction and use of the raw material. On top of the experimental work and modeling, we also develop concepts as for example Benign by Design intended dissipation.
Our research and teaching is carried out on an intra- and transdisciplinary scale within the Faculty of Sustainability together with national and international co-operations.
Topics
We are interested in environmental affairs and all questions concerning the sustainability within the context of the life cycle of chemicals, starting with the raw material itself and going on to the synthesis, the use to end up with the environmental fate of chemical substances and products after their use. Beyond the chemical substances and products themselves, we are also interested in the associated material flows, especially when it comes to the so-called strategic resources (e. g. phosphate, seldom metals).
We investigate the fate (e. g. identification of relevant sources) in the environment as well as the spread and the behavior of chemicals (e. g. spread, biological and photochemical degradation) in the aquatic environment in the sense of a sustainable water management. This is why we want to record their effects (e. g. genotoxicity, mutagenity, and bacteria toxicity).At present we are focusing on pesticides, pharmaceuticals, textile auxiliary agents and nanoparticles.
Service offers
Examination of (bio)-degradability of chemicals and pharmaceuticals
according to OECD/DIN/ISO and others:
• Closed Bottle-Test (OECD 301 D)
• Manometric Respirometry (OECD 301 F)
• Zahn-Wellens-Test (OECD 302 B)
• Waste water treatment plant simulation (OECD 303 A)
• Water Sediment Test
• Photochemical degradation
• Photocatalytic degradation
• Electro coalugation
• and other
Toxicity
Acute and chronic toxicity in bacteria:
• Luminescent bacteria test with Vibrio fischeri (30 minutes and 20h)
• Growth-inhibition test with Pseudomonas putida (16h) and Vibrio fischeri (20h)
• Growth-inhibition test with Enteroccus faecalis
Genotoxicity:
• Ames-Test with Salmonella typhimurium TA 98/TA 100
• Umu-Test with Salmonella typhimurium TA 1535/ psK 1002
• Mikronucleus-Test with CHO-Cells by FACS-Analysis
• Green Screen-Assay with TK6-cells
Chemical informatics
Structure property relationships
• Calculation of physicochemical properties of molecules
• Calculation of quantum chemical parameters of molecules
• Calculation of toxicity and mutagenicity
• Calculation of the biological degradation
• Calculation of metabolites (mammalia bacteria)
• Targeted design of chemicals and pharmaceuticals
• Support in purchasing decisions
• Product optimization
• REACH
Water flux based reactive mass transport modelling and assessment
• Spatio-temporal analysis of discharge and water quality (R-Statistics, SigmaPlot, ArcGIS)
• Assessment of water quality by combined water quality and quantity indices (WQI, WQQI, WAI)
• Water quality modelling in lakes and reservoirs in 1D, 2D and 3D (LAC, MOHID Water, Ce-qual)
• Catchment modelling of hydrology, erosion and sedimenttransport, phosphorus discharge, pesticides and transformation product discharge (ZIN-Sed, MOHID Land, reservoir models)
• River channel modelling of water, sediment, phosphorus, pesticide and transformation product discharge (ZIN-Sed, MOHID Stream)
• Scenario modelling and assessment
• System analysis and management assessment
• Integrated water ressources management
Analytics
• Liquid chromatography coupled to ion trap mass spectrometry
• HPLC with UV and fluorescence detection
• Gas chromatography coupled to mass spectrometry
• Ion chromatography
- Published
Response to David B. Brooks
Wegerich, K. & Olsson, O., 05.2011, In: Water International. 36, 3, p. 410-413 4 p.Research output: Journal contributions › Journal articles › Research › peer-review
- Published
Repurposing chemical waste: Sustainable chemistry for circularity beyond artificial intelligence
Zuin, V. G. & Kümmerer, K., 21.07.2022, In: Cell. 185, 15, p. 2655-2656 2 p.Research output: Journal contributions › Comments / Debate / Reports › Research
- Published
Removal of the anti-cancer drug methotrexate from water by advanced oxidation processes: Aerobic biodegradation and toxicity studies after treatment
Lutterbeck, C. A., Baginska, E., Machado, Ê. L. & Kümmerer, K., 12.2015, In: Chemosphere. 141, p. 290-296 7 p.Research output: Journal contributions › Journal articles › Research › peer-review
- Published
Removal of dexamethasone from aqueous solution and hospital wastewater by electrocoagulation
Arsand, D. R., Kümmerer, K. & Martins, A. F., 15.01.2013, In: The Science of The Total Environment. 443, p. 351-357 7 p.Research output: Journal contributions › Journal articles › Research › peer-review
- Published
Reliving the past in a changed environment: Hydropower ambitions, opportunities and constraints in Tajikistan
Wegerich, K., Olsson, O. & Froebrich, J., 01.07.2007, In: Energy Policy. 35, 7, p. 3815-3825 11 p.Research output: Journal contributions › Journal articles › Research › peer-review
- Published
Release of monomers from four different composite materials after halogen and LED curing
Polydorou, O., König, A., Altenburger, M. J., Wolkewitz, M., Hellwig, E. & Kümmerer, K., 01.10.2011, In: American Journal of Dentistry. 24, 5, p. 315-321 7 p.Research output: Journal contributions › Journal articles › Research › peer-review
- Published
Reducing Environmental Pollution by Antibiotics through Design for Environmental Degradation
Leder, C., Suk, M., Lorenz, S., Rastogi, T., Pfeifer, C., Kietzmann, M., Jonas, D., Buck, M., Pahl, A. & Kümmerer, K., 19.07.2021, In: ACS Sustainable Chemistry & Engineering. 9, 28, p. 9358–9368 11 p.Research output: Journal contributions › Journal articles › Research › peer-review
- Published
Reducing aquatic micropollutants – Increasing the focus on input prevention and integrated emission management
Kümmerer, K., Dionysiou, D. D., Olsson, O. & Fatta-Kassinos, D., 20.02.2019, In: Science of the Total Environment. 652, p. 836-850 15 p.Research output: Journal contributions › Journal articles › Research › peer-review
- Published
Recalcitrant pharmaceuticals in the aquatic environment: A comparative screening study of their occurrence, formation of phototransformation products and their in vitro toxicity
Bergheim, M., Gminski, R., Spangenberg, B., Dȩbiak, M., Bürkle, A., Mersch-Sundermann, V., Kümmerer, K. & Gieré, R., 2014, In: Environmental Chemistry. 11, 4, p. 431-444 14 p.Research output: Journal contributions › Journal articles › Research › peer-review
- Published
Ready biodegradability of trifluoromethylated phenothiazine drugs, structural elucidation of their aquatic transformation products, and identification of environmental risks studied by LC-MS( n ) and QSAR
Trautwein, C. & Kümmerer, K., 09.2012, In: Environmental Science and Pollution Research. 19, 8, p. 3162-3177 16 p.Research output: Journal contributions › Journal articles › Research › peer-review